WBS Definition 1 LUSI PROJECT MAJOR ITEM OF EQUIPMENT ...
WBS Definition 1 LUSI PROJECT MAJOR ITEM OF EQUIPMENT ...
WBS Definition 1 LUSI PROJECT MAJOR ITEM OF EQUIPMENT ...
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<strong>WBS</strong> <strong>Definition</strong><br />
1 <strong>LUSI</strong> <strong>PROJECT</strong> <strong>MAJOR</strong> <strong>ITEM</strong> <strong>OF</strong> <strong>EQUIPMENT</strong><br />
This summary <strong>WBS</strong> covers the Total Estimated Cost (TEC) Estimate for the <strong>LUSI</strong> Project<br />
being designed, fabricated, assembled and installed at SLAC. The <strong>LUSI</strong> TEC is supported<br />
by the U.S. Department of Energy.<br />
1.1 <strong>PROJECT</strong> MANAGEMENT<br />
This summary cell of the <strong>WBS</strong> identifies the technical and administrative management of<br />
the project, establishment and operation of the Project Management Control System<br />
(PMCS), generation of financial and technical reports, and organization of technical support<br />
and reviews. Effort and supplies related to management of project-wide ES&H issues are<br />
included.<br />
1.1.01 ES&H<br />
This summary <strong>WBS</strong> cell describes the ES&H support for the <strong>LUSI</strong> project at SLAC.<br />
1.1.01.01 ES&H<br />
This <strong>WBS</strong> element captures efforts of the safety coordinator and other effort and associated<br />
supplies needed to manage safety related issues in the design and construction phases of<br />
the Project.<br />
1.1.02 Project Management<br />
This summary <strong>WBS</strong> cell describes the Project Management support for the <strong>LUSI</strong> project at<br />
SLAC.<br />
1.1.02.01 Management Office<br />
This element captures efforts of the Project Director, the Chief Engineer, and the Project<br />
Manager. Also includes related supplies and travel.
1.1.02.02 Project Support<br />
This element captures efforts of the Project PMCS, Office Manager Computer support, and<br />
PMCS contractors, System management and Cost Accounting. Also includes related<br />
supplies and travel.<br />
1.1.03 Technical Support<br />
This summary <strong>WBS</strong> cell describes the effort associated with technical support, review<br />
activities, and general collaboration not identified with a specific instrument.<br />
1.1.03.01 Technical Support<br />
This element captures all technical support, review activities, and general collaboration not<br />
identified with a specific instrument.<br />
1.1.03.02 Reviews<br />
This element captures the effort, travel and supplies to support all project level reviews.<br />
1.1.03.03 Collaboration<br />
This element includes effort, travel and supplies to support technical collaborations.<br />
1.2 X-RAY PUMP PROBE (XPP)<br />
This <strong>WBS</strong> element summarizes the engineering, design, procurement administration,<br />
fabrication, assembly, testing, and installation efforts associated with the XPP instrument.<br />
The XPP will predominantly use a fast optical laser to generate transient states of matter<br />
and utilize the ultra-bright, ultra-short X-ray pulses from LCLS, to probe the structural<br />
dynamics initiated by the laser excitation. The laser pump will have the ability to conduct<br />
precise optical manipulations, in order to create the desired excited states.<br />
1.2.01 XPP System Integration & Design
This <strong>WBS</strong> element primarily captures physics, engineering and design support associated<br />
with the integration of the XPP instrument. Also included are procurement preperation,<br />
fabrication, assembly and installation coordination, vendor site inspections and labratory<br />
facility supply for the XPP instrument. It does not include any component or assembly detail<br />
analysis or design, which is captured in subsequent <strong>WBS</strong> elements. This element includes<br />
effort to develop the baseline budget and schedule, to manage the budget and schedule<br />
and to track and document the earn value.<br />
1.2.02 XPP X-ray Optics & Support Table<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication, assembly and testing<br />
of the support structures for all x-ray beamline optical and diagnostic elements associated<br />
specifically to XPP. (excluded is any component specific precision alignment assembly,<br />
captured in other <strong>LUSI</strong> <strong>WBS</strong> elements)<br />
1.2.02.01 Support Table, Supports & Shielding<br />
This <strong>WBS</strong> element is the engineering, design, fabrication, assembly and testing of the<br />
support structures for all x-ray beamline optical and diagnostic elements required to<br />
translate between position 1 (white beam line) and position 2 (monochromatic beamline)<br />
associated specifically to XPP. It includes all hardware required to span the distance from<br />
the hutch floor to immediately below the component specific precision alignment<br />
assemblies. (excluded are any component specific precision alignment assemblies,<br />
captured in other <strong>LUSI</strong> <strong>WBS</strong> elements)<br />
1.2.02.02 Optics Support Table & Supports
.<br />
1.2.02.03 reserved<br />
This <strong>WBS</strong> element is the engineering, design, fabrication, assembly and testing of the<br />
support structures for all x-ray beamline optical and diagnostic elements NOT required to<br />
translate between position 1 (white beam line) and position 2 (monochromatic beamline)<br />
associated specifically to XPP. It includes all hardware required to span the distance from<br />
the hutch floor to immediately below the component specific precision alignment<br />
assemblies. (excluded are any component specific precision alignment assemblies,<br />
captured in other <strong>LUSI</strong> <strong>WBS</strong> elements) hardware will be located in hutch 3 AND hutch 2<br />
1.2.03 XPP Laser System<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication, assembly, and testing<br />
of the XPP laser system.<br />
1.2.03.01 Ti:Sapphire Laser<br />
This <strong>WBS</strong> element summarizes the fabrication and testing of the XPP ultrafast laser. These<br />
components will add to the capability of the LCLS AMO laser system and will provide the<br />
excitation pulse (pump) to initiate time resolved phenomena for the XPP instrument. This<br />
element consists of a Ti:Sapphire power amplifier, optical parametric amplifier (OPA) and<br />
temporal pulse shaper. This configuration permits flexibility of the wavelength, excitation<br />
level and temporal profile of the laser pulses used to photo-excite various materials.<br />
1.2.03.01.01 reserved<br />
1.2.03.01.02 Ti:Sapphire Amplifier(s) System/Pumps
This <strong>WBS</strong> element includes the fabrication, assembly and testing of the Ti:Sapphire<br />
Amplifier System. This 2nd stage multi-pass power amplifier, operating at 120 Hz, will<br />
increase the pulse energy to 20 mJ with a pulse-to-pulse energy stability < 1.5% rms. This<br />
level of pulse energy and stability is achieved through use of the high energy diode-pumped<br />
solid state lasers implemented in the LCLS gun laser.<br />
1.2.03.01.03 Temporal Pulse Shaper<br />
This <strong>WBS</strong> element includes the fabrication and testing of the Temporal Pulse Shaper. This<br />
device will be inserted between the Ti:Sapphire oscillator and regenerative amplifier when<br />
pulse shaping is required.<br />
1.2.03.01.04 Optical Parametric Amplifier<br />
This <strong>WBS</strong> element includes the fabrication and testing of the optical parametric amplifier.<br />
1.2.03.01.05 reserved<br />
1.2.03.02 Optics, Optomechanics & Diagnostics<br />
This <strong>WBS</strong> element includes the engineering, design, fabrication, assembly, and testing of<br />
the XPP laser system optics, optomechanics and diagnostics.<br />
1.2.03.02.01 Optics & Optomechanics<br />
This <strong>WBS</strong> element includes the fabrication of the optics and optomechanical components<br />
associated with the XPP laser system.<br />
1.2.03.02.02 Laser Diagnostics<br />
This <strong>WBS</strong> element includes the fabrication of the laser system diagnostics. These<br />
diagnostics will be used to characterize the temporal profile, pulse energy, spatial profile<br />
and timing of the XPP laser system.<br />
1.2.03.02.03 Hutch Optical Table System
This <strong>WBS</strong> element includes the engineering, design, fabrication, assembly, and testing of<br />
the opitical tables to support the XPP laser system elements located exclusively in hutch 3.<br />
1.2.03.02.04 Optical Experiments<br />
This <strong>WBS</strong> element includes the fabrication of the components used to probe a sample that<br />
is excited via the FEL using optical techniques.<br />
1.2.03.02.05 Laser Containment System<br />
This <strong>WBS</strong> element includes the engineering, design, fabrication, assembly, and testing of<br />
the optical laser containment system (IE: safety covers) for XPP specific components in<br />
hutch 3. It includes the hardware attached to the covers, doors or optical tables required to<br />
locate or support the safety interlock hardware (it does not include design, procurement,<br />
switches, wiring, or wire management elements of the interlock system).<br />
1.2.03.02.06 Laser Hall Optical Table System<br />
This <strong>WBS</strong> element includes the engineering, design, fabrication, assembly, and testing of<br />
the opitical tables to support the XPP laser system elements located exclusively in the laser<br />
hall.<br />
1.2.04 XPP Detector System<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element summarizes the<br />
engineering, design, fabrication, assembly, and testing of the XPP detector system.<br />
1.2.04.01 Detector Support and Integration<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
Physics and Engineering support associated with the execution of the design, fabrication,<br />
and installation efforts for the XPP 2-D detector system. Efforts related to design reviews<br />
and vendor visits will be captured in this <strong>WBS</strong> element.<br />
1.2.04.02 Detector Sensor
This <strong>WBS</strong> element is managed and executed at BNL. This WS element includes the<br />
engineering, design, fabrication, assembly and testing of the XPP detector sensor subsystem.<br />
1.2.04.03 Detector Application Specific Integrated Circuits (ASIC)<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
engineering, design, fabrication, assembly and testing of the XPP detector application<br />
specific integrated circuit sub-system.<br />
1.2.04.04 Detector Controls, Electronics and DAQ<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
engineering, design, fabrication, assembly and testing of the XPP detector controls,<br />
electronics data acquisition sub-systems.<br />
1.2.05 XPP Sample Environment & Diffractometer System<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication, assembly, and testing<br />
of the XPP diffractometer system (& sample environments).<br />
1.2.05.01 XPP Diffractometer System<br />
This <strong>WBS</strong> cell includes the engineering, design, fabrication, assembly, and testing of the<br />
XPP Diffractometer System. components include: sample goniometer (kappa and Tilt<br />
configuratoins), detector mover, mounting bases for goniometer and detector mover,<br />
alignment fixtures, sample mount heads, detector array protection beam stop and cable<br />
management.<br />
1.2.06 XPP Facilities<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication and testing of<br />
components required to complete the outfitting of hutch 3 to support XPP experiements.<br />
Items included are not directly associated with experimental operations (IE: not x-ray beam,<br />
optic laser related hardware)
1.2.06.01 XPP Hutch Specification<br />
This <strong>WBS</strong> element includes the specification of requirements and engineering, design and<br />
documentation of the general hutch support hardware layout. It includes placement of<br />
special access hardware (raised floor, general safety barriers), support hardware (control<br />
racks, cable trays) and personnel accommodation items (supply cabinets, desks, benches,<br />
etc).<br />
1.2.06.02 XPP Utilities & Hutch Equipment<br />
This <strong>WBS</strong> element includes the engineering, design and fabrication of hardware to outfit<br />
hutch 3 for XPP operations, including raised floor, specialized cable trays (components with<br />
special functional requirements not addressed in other <strong>LUSI</strong> <strong>WBS</strong> elements), cabinets and<br />
personnel accommodation hardware. Items included are not directly associated with<br />
experimental operations (IE: not x-ray beam, optic laser related hardware)<br />
1.2.07 XPP Vacuum System<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication and testing of the XPP<br />
vacuum system. Included are all pumping, pressure diagnostics, line replaceable bellows,<br />
drift spools, and drift spool supports. Not included are x-ray beam diagnostic and optic<br />
vacuum enclosure elements or supports<br />
1.2.07.01 XPP Vacuum Equipment<br />
This <strong>WBS</strong> element includes the engineering, design, fabrication and testing of the XPP<br />
vacuum system pumping, pressure diagnostics, valves and related equipment.<br />
1.2.07.02 XPP Vacuum Hardware<br />
This <strong>WBS</strong> element summarizes the fabrication and testing of the XPP vacuum system line<br />
replaceable bellows, drift spools, and drift spool supports. Not included are any engineering,<br />
design or any x-ray beam diagnostic and optic vacuum enclosure elements or supports
1.2.07.02.01 XPP Spools and Bellows<br />
This <strong>WBS</strong> element includes the fabrication and testing of the XPP vacuum system line<br />
replaceable bellows and drift spools. Not included are any engineering, design or any x-ray<br />
beam diagnostic and optic vacuum enclosure elements<br />
1.2.07.02.02 XPP Vacuum Supports<br />
This <strong>WBS</strong> element summarizes the fabrication and testing of the XPP vacuum system drift<br />
spool supports. Not included are any engineering, design or any x-ray beam diagnostic and<br />
optic vacuum supports<br />
1.2.08 XPP Installation<br />
This <strong>WBS</strong> element summarizes all labor and material required for approval to install and<br />
installation of the <strong>LUSI</strong> XPP hardware<br />
1.2.08.01 XPP Installation<br />
This <strong>WBS</strong> element includes all tasks exclusively related to installation of XPP instrrument<br />
hardware in hutch 3. included are engineering technical planning (safety approvals,<br />
statement of work generation), and engineering oversight of the of the installation. Included<br />
are efforts related to preparing the installation location, moving and installing all necessary<br />
hardware, connecting all wires and cables, aligning the instrument, and performing vacuum<br />
leak checks.<br />
1.3 COHERENT X-RAY IMAGING (CXI)<br />
This cell of the <strong>WBS</strong> identifies all required design, procurement, fabrication, assembly,<br />
testing and installation efforts associated with this instrument, which takes advantage of the<br />
extremely bright, ultra-short LCLS pulses of hard x-rays to allow imaging of non-periodic<br />
nano-scale objects, including single biomolecules or small clusters, at or near atomic<br />
resolution. The main components are the pulse picker, 2 Kirkpatrick-Baez (KB) mirror<br />
systems, upstream x-ray diagnostics, a sample chamber including a particle injector and an<br />
ion time-of-flight, a detector stage and x-ray diagnostics downstream of the sample<br />
chamber.
1.3.01 CXI System Integration & Design<br />
This cell of the <strong>WBS</strong> identifies all the Physics and Engineering support associated with the<br />
execution of the design, procurement and fabrication efforts for this instrument. Costs<br />
related to sustaining design support, instrument design reviews, radiation physics support,<br />
vendor visits and lab supplies will also be captured in this <strong>WBS</strong> element<br />
1.3.02 CXI X-ray Optics<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the x-ray optics that<br />
are specific to the CXI instrument, namely two Kirkpatrick-Baez (KB) mirror pairs.<br />
1.3.02.01 CXI KB System (0.1 micron)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with a KB mirror system<br />
capable of producing a 0.1 micron x-ray focal spot at the sample location. The mirror<br />
system consists of 2 mirrors and their associated 3-axis of rotation mounting system, a<br />
translation system to position the mirrors into the x-ray beam and a vacuum vessel to hold<br />
the entire system under ultra high vacuum.<br />
1.3.02.02 CXI KB System (1 micron)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with a KB mirror system<br />
capable of producing a 1 micron x-ray focal spot at the sample location. The mirror system<br />
consists of 2 mirrors and their associated 3-axis of rotation mounting system, a translation<br />
system to position the mirrors into the x-ray beam and a vacuum vessel to hold the entire<br />
system under ultra high vacuum.<br />
1.3.03 CXI Lasers
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the lasers and laser<br />
transport systems that will be used with the CXI instrument.<br />
1.3.03.01 CXI Reference Laser<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the CXI Reference<br />
Laser. This laser will be introduced into vacuum and the x-ray beam path using remotely<br />
moveable mirrors and will provide a visible reference line which is collinear with the LCLS<br />
beam. This laser will allow for alignment of the experiment without the use of the x-ray<br />
beam.<br />
1.3.03.02 reserved<br />
1.3.04 CXI Coherent Imaging Injector<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with a particle injector<br />
system that will be used to deliver support-free particles into high vacuum to be intercepted<br />
by the LCLS beam.<br />
1.3.04.01 Coherent Imaging Particle Injector System<br />
This cell of the <strong>WBS</strong> identifies all required Physics support, engineering, design,<br />
documentation procurement, fabrication, assembly and testing efforts associated with the<br />
CXI Coherent Imaging Particle Injector.<br />
1.3.05 CXI Sample Environment<br />
This cell includes all efforts to design, procure, and fabricate all required parts to complete<br />
the room temperature Sample Chambers (0.1 micron & 1.0 micron), the Ion ToF, and the<br />
Precision Instrument Stands (0.1 micron & 1.0 micron).
1.3.05.01 CXI Room Temperature Environment<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with room temperature<br />
sample chambers, an Ion time-of-flight detector, precision instrument stands and a detector<br />
stage.<br />
1.3.05.01.01 CXI Sample Chambers and Ion T<strong>OF</strong><br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the CXI Sample<br />
Chambers (0.1 micron and 0.1 micron) and the ion time-of-flight mass spectrometer. Each<br />
CXI Sample Chamber will include an interface to the Coherent Imaging Injector, aperture<br />
raster stages and a sample raster stage with 2-axis rotation, as well as vacuum equipment<br />
to maintain and monitor the high vacuum of each chamber. The ion T<strong>OF</strong> will sample ions<br />
created at the interaction region and be mounted on the sample chamber. A single high<br />
resolution sample viewing system is also captured in this <strong>WBS</strong>.<br />
1.3.05.01.02 CXI Precision Instrument Stands<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with two Precision<br />
Instrument Stands (0.1 micron and 1.0 micron) for the CXI instrument. Each stand will<br />
support, position and orient its respective Sample Chamber, the Coherent Imaging Injector<br />
and the Detector Stage. The Coherent Imaging Injector and the Detector Stage may be<br />
used with only one Sample Chamber/Precision Instrument Stand pair at any given time.<br />
1.3.05.01.03 CXI Detector Stage<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the Detector Stage<br />
which will support, position and orient the detector inside a vacuum vessel. The vacuum<br />
vessel and the necessary vacuum equipment to produce the high vacuum are also captured<br />
in this <strong>WBS</strong> element.
1.3.05.02 reserved<br />
1.3.06 CXI Hutch Facilities<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication and testing of<br />
components required to complete the outfitting of hutch 5 to support CXI experiements.<br />
Items included are not directly associated with experimental operations (i.e., not x-ray beam,<br />
optic laser related hardware)<br />
1.3.06.01 CXI Hutch Specification<br />
This <strong>WBS</strong> element includes the specification of requirements and engineering, design and<br />
documentation of the general hutch support hardware layout. It includes placement of<br />
special access hardware (raised floor, general safety barriers), support hardware (control<br />
racks, cable trays) and personnel accommodation items (supply cabinets, desks, benches,<br />
etc).<br />
1.3.06.02 CXI Utilities & Hutch Equipment<br />
This <strong>WBS</strong> element includes the engineering, design, procurement and fabrication of<br />
hardware to outfit hutch 5 for CXI operations, including raised floor, specialized cable trays<br />
(components with special functional requirements not addressed in other <strong>LUSI</strong> <strong>WBS</strong><br />
elements), overhead crane, compressed gas and water distribution, connection of power to<br />
racks, cabinets and personnel accommodation hardware. Items included are not directly<br />
associated with experimental operations (i.e., not x-ray beam, optic laser related hardware)<br />
1.3.07 CXI Vacuum System<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with creating an high<br />
vacuum along the entire CXI beam line. This <strong>WBS</strong> element includes all hardware, bellows,<br />
spools, and vacuum supports.
1.3.07.01 CXI Vacuum Equipment<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with of the vacuum<br />
equipment. This includes all pumps, valves, vacuum diagnostics and miscellany vacuum<br />
equipment for the entire CXI instrument, except for those of the Sample Chamber, the<br />
Detector Stage and the Coherent Imaging Injector.<br />
1.3.07.02 CXI Vacuum Hardware<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the CXI vacuum<br />
hardware such as bellows, spools and all the supports vacuum vessels.<br />
1.3.07.02.01 CXI Bellows & Spools<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the vacuum bellows<br />
and spools for the CXI instrument. Included in the vacuum spools are the vacuum tees or<br />
crosses necessary for connecting vacuum equipment.<br />
1.3.07.02.02 CXI Vacuum Supports<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, documentation,<br />
procurement, fabrication, assembly and testing efforts associated with the supports stands<br />
of the vacuum spools, the support stands of all common optics and diagnostics, the support<br />
stands of the reference laser and the 1 micron KB system. The only support stand of the<br />
CXI instrument not captured in this <strong>WBS</strong> element is the Precision Instrument Stand.<br />
1.3.08 CXI Installation<br />
This element summarizes all labor and material required for the assembly and installation of<br />
the <strong>LUSI</strong> CXI Instrument.<br />
1.3.08.01 CXI Installation Phase
This element captures the efforts by engineers to provide technical planning, design of<br />
installation equipment and oversight of the installation. This element captures the efforts of<br />
preparing the installation location, moving and installing all necessary hardware,<br />
diagnostics/common optics and the CXI Instrument (including the 1.0 micron KB system<br />
and1.0 micron Sample Chamber/Precision Instrument Stand), connecting all wires and<br />
cables, aligning the instrument, and performing a vacuum leak check to meet <strong>LUSI</strong> CD-4b<br />
deliverables. Additionally, this element captures the efforts of preparing the installation<br />
location, moving and installing all necessary hardware, diagnostics, 0.1 micron KB system,<br />
0.1 micron Sample Chamber/Precision Instrument stand, Coherent Imaging Injector, IToF,<br />
connecting all wires and cables, aligning the instrument, and performing vacuum leak to<br />
meet <strong>LUSI</strong> CD-4c deliverables.<br />
1.4 X-RAY CORRELATION SPECTROSCOPY (XCS)<br />
This cell of the <strong>WBS</strong> identifies all required design, procurement, and fabrication efforts<br />
associated with this instrument, which will take advantage of the unique opportunity<br />
provided by the unprecedented brilliance and narrow pulse duration of the LCLS to observe<br />
dynamical changes of large groups of atoms in condensed matter systems over a wide<br />
range of time scales using X-ray Photon Correlation Spectroscopy (XCS). The proposed<br />
instrument will include a beam multiplexing fixed-exit monochromator, coherence preserving<br />
optics, a diffractometer and detector stages, and a fast 2D detector. The XCS instrument<br />
will be complemented by x-ray optics elements, sample environment and experimental<br />
instrumentation provided by the collaborative teams.<br />
1.4.01 XCS System Integration & Design<br />
This <strong>WBS</strong> element includes all of the Physics support associated with the execution of the<br />
design, procurement and fabrication efforts for the XCS instrument. Engineering and design<br />
effort required to support integration of the XCS instrument within <strong>LUSI</strong> and also into the<br />
LCLS project are included here. Effort and supplies to support instrument level reviews,<br />
design management/standardization, vendor visits, work related training, project meetings<br />
and general procurement and fabrication coordination (not covered elsewhere) are also<br />
included here.
1.4.02 XCS X-ray Optics and Support Table<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication, assembly and testing<br />
of the support structures for all x-ray beamline optical and diagnostic elements associated<br />
specifically to XCP. (excluded is any component specific precision alignment assembly,<br />
captured in other <strong>LUSI</strong> <strong>WBS</strong> elements)<br />
1.4.02.01 XCS XTT Supports, Tables and Shielding<br />
This <strong>WBS</strong> element includes all required engineering, design, procurement, fabrication,<br />
assembly and testing of optics and diagnostics support structures for the XCS beamline in<br />
the X-Ray Transport Tunnel. It includes all hardware required to mount components to the<br />
floor below the component specific precision alignment assemblies. (Excluded are any<br />
component specific precision alignment assemblies, captured in other <strong>LUSI</strong> <strong>WBS</strong><br />
elements.)<br />
1.4.02.02 XCS Hutch Supports, Tables and Shielding<br />
This <strong>WBS</strong> element includes all required engineering, design, procurement, fabrication,<br />
assembly and testing of optics and diagnostics support structures for the XCS beamline in<br />
Hutch 4 upstream of the diffratcometer. It includes all hardware required to mount<br />
components to the floor below the component specific precision alignment assemblies.<br />
(Excluded are any component specific precision alignment assemblies, captured in other<br />
<strong>LUSI</strong> <strong>WBS</strong> elements.)<br />
1.4.02.03 XCS Stoppers<br />
This <strong>WBS</strong> element includes all required engineering, design, procurement, fabrication,<br />
assembly and testing of a single module diagnostic stopper; a modification of the SSRL dual<br />
module PPS stopper.<br />
1.4.02.04 reserved<br />
1.4.03 XCS Detector System
This summary <strong>WBS</strong> describes the efforts and costs associated with the XCS 2D X-Ray<br />
Detector.<br />
1.4.03.01 Detector Support and Integration<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
Physics and Engineering support associated with the execution of the design, fabrication,<br />
and installation efforts for the XCS 2-D detector system. Efforts related to design reviews<br />
and vendor visits will be captured in this <strong>WBS</strong> element.<br />
1.4.03.02 Detector Sensor<br />
This <strong>WBS</strong> element is managed and executed at BNL. This WS element includes the<br />
engineering, design, fabrication, assembly and testing of the XCS detector sensor subsystem.<br />
1.4.03.03 Detector Application Specific Integrated Circuits (ASIC)<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
engineering, design, fabrication, assembly and testing of the XCS detector application<br />
specific integrated circuit sub-system.<br />
1.4.03.04 Detector Controls, Electronics and DAQ<br />
This <strong>WBS</strong> element is managed and executed at BNL. This <strong>WBS</strong> element includes the<br />
engineering, design, fabrication, assembly and testing of the XCS detector controls,<br />
electronics data acquisition sub-systems.<br />
1.4.04 XCS Sample Environment & Diffractometer System<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the XCS sample environment and diffractometer system including<br />
the diffractometer, sample environment and the large angle detector mover.<br />
1.4.04.01 XCS Diffractometer System
1.4.04.02 reserved<br />
This <strong>WBS</strong> element includes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the XCS diffractometer. The diffractometer provides a mounting<br />
surface for the sample chamber, the near field detector and anchors to the floor. Also<br />
included is the capability to move the diffractometer off of the XCS beamline toward the<br />
South wall.<br />
1.4.04.03 XCS Large Angle Mover & Chamber<br />
This <strong>WBS</strong> element includes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the large angle detector mover translation stage, vacuum chamber,<br />
vacuum window and detector mounting interface of the large angle diffractometer system.<br />
1.4.05 XCS Hutch Facilities<br />
This <strong>WBS</strong> element summarizes the engineering, design, fabrication and testing of<br />
components required to complete the outfitting of hutch 4 to support XCS experiements.<br />
Items included are not directly associated with experimental operations (IE: not x-ray beam,<br />
optic laser related hardware)<br />
1.4.05.01 XCS Hutch Specification<br />
This <strong>WBS</strong> element includes the specification of requirements and engineering, design and<br />
documentation of the general hutch support hardware layout. It includes placement of<br />
special access hardware (raised floor, general safety barriers), support hardware (control<br />
racks, cable trays) and personnel accommodation items (supply cabinets, desks, benches,<br />
etc).<br />
1.4.05.02 XCS Utilities & Hutch Equipment
This <strong>WBS</strong> element includes the engineering, design and fabrication of hardware to outfit<br />
hutch 3 for XPP operations, including raised floor, specialized cable trays (components with<br />
special functional requirements not addressed in other <strong>LUSI</strong> <strong>WBS</strong> elements), cabinets and<br />
personnel accommodation hardware. Items included are not directly associated with<br />
experimental operations (IE: not x-ray beam, optic laser related hardware)<br />
1.4.06 XCS Vacuum System<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the XCS X-Ray Transport Tunnel and Hutch vacuum systems<br />
including all hardware, bellows, spools, and vacuum supports.<br />
1.4.06.01 XCS XTT Vacuum System<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the XCS X-Ray Transport Tunnel vacuum system including all<br />
hardware, bellows, spools, and vacuum supports.<br />
1.4.06.01.01 XCS XTT Vacuum Equipment<br />
This <strong>WBS</strong> element summarizes all required engineering support, procurement, processing<br />
and testing of the vacuum equipment for the XCS X-Ray Transport Tunnel vacuum system<br />
including pumps, gauges and valves.<br />
1.4.06.01.02 XCS XTT Vacuum Spools & Bellows<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of drift spools and bellows for the XCS X-Ray Transport Tunnel<br />
vacuum system.<br />
1.4.06.01.03 XCS XTT Vacuum Supports<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of XCS X-Ray Tunnel vacuum system component supports including<br />
pump, gauge, valve and drift tube supports.
1.4.06.02 XCS Hutch Vacuum System<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of the XCS Hutch vacuum system including all hardware, bellows,<br />
spools, and vacuum supports. Excluded is the large angle mover vacuum chamber covered<br />
elsewhere in the <strong>WBS</strong>.<br />
1.4.06.02.01 XCS Hutch Vacuum Equipment<br />
This <strong>WBS</strong> element summarizes all required engineering support, procurement, processing<br />
and testing of the vacuum equipment for the XCS Hutch 4 vacuum system including pumps,<br />
gauges and valves.<br />
1.4.06.02.02 XCS Hutch Vacuum Spools & Bellows<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of drift spools and bellows for the XCS Hutch 4 vacuum system.<br />
1.4.06.02.03 XCS Hutch Vacuum Supports<br />
This <strong>WBS</strong> element summarizes all required engineering, design, procurement, fabrication,<br />
assembly and testing of XCS Hutch 4 vacuum system component supports including pump,<br />
gauge, valve and drift tube supports. Excluded are supports for the large angle mover<br />
vacuum chamber supports.<br />
1.4.07 XCS Installation<br />
This element summarizes all labor, material and engineering support required for the<br />
assembly and installation of the XCS instrument components.<br />
1.4.07.01 XCS XRT Installation
This element captures the efforts by engineers to provide technical planning, design of<br />
installation equipment and oversight of the installation of the X-Ray Transport Tunnel<br />
beamline segment of the XCS instrument. This element also captures the efforts of<br />
preparing the installation location, moving and installing all necessary components and<br />
hardware , alignment of the components, vacuum interconnection and vacuum leak check<br />
of the X-Ray Transport Tunnel beamline segment of the XCS instrument.<br />
1.4.07.02 XCS Hutch 4 Installation<br />
This element captures the efforts by engineers to provide technical planning, design of<br />
installation equipment and oversight of the installation of the XCS instrument components<br />
located in Hutch 4. This element also captures the efforts of preparing the installation<br />
location, moving and installing all necessary components and hardware, alignment of the<br />
components, vacuum interconnection and vacuum leak check of the CS instrument<br />
components located in Hutch 4.<br />
1.5 DIAGNOSTICS & COMMON OPTICS<br />
This element of the <strong>WBS</strong> rolls up all the materials and effort required to manage, design,<br />
procure, fabricate, assemble, integrate and test the following deliverables:<br />
1) Pop-In Profile Monitor: 3 for XPP, 4 for CXI and 4 for XCS<br />
2) Pop-In Intensity Monitor: 2 for XPP, 2 for CXI,<br />
3) Wavefront Monitor: 1 for CXI<br />
4) Intensity-Position Monitor<br />
5) Slits<br />
6) Attenuators: 1 for XPP, 1 for CXI, 1 for XCS<br />
7) Pulse Picker - one shared system<br />
8) Be Lens System: 1 for XPP, 1 for XCS<br />
9) Harmonic Rejection Mirror: 1 for XPP, 1 for XCS<br />
1.5.01 Diagnostics & Common Optics System Integration & Design
This element covers the physics, engineering and design support associated with the<br />
execution of the design, procurement, and fabrication efforts for the Diagnostics and<br />
Common Optics systems. It also includes integration engineering between its deliverables<br />
and the instruments to which these deliverables shall be installed. Effort and materials<br />
related to the coordination of design reviews, design management/standardization, vendor<br />
visits, work related training, project meetings, supplies and procurement and fabrication<br />
coordination effort is also included.<br />
1.5.02 Diagnostics<br />
This element rolls up all the materials and effort required to manage, design, procure,<br />
fabricate, assemble, integrate and test the following deliverables:<br />
1) Pop-In Profile Monitor: 3 for XPP, 4 for CXI and 4 for XCS<br />
2) Pop-In Intensity Monitor: 2 for XPP, 2 for CXI, and 7 for XCS<br />
3) Wavefront Monitor: 1 for CXI<br />
4) Intensity-Position Monitor: 3 for XPP, 3 for CXI and 5 for XCS<br />
1.5.02.01 Pop-in Profile/Wavefront Monitor<br />
This element covers the design, procurement, fabrication and assembly of the Pop-In Profile<br />
Monitors for XPP, CXI and XCS (Pop-In Profile Monitor: 3 for XPP, 4 for CXI and 4 for XCS<br />
& Wavefront Monitor: 1 for CXI). This element does not cover the installation of the devices.<br />
The deliverables for this device are a stand alone vacuum chamber with a 40 mm YAG<br />
screen and visible mirror mounted on a pnuematic actuator, an optical imaging system, a six<br />
degree of freedom support system that can be mounted to a table and design<br />
documentation of the hardware.<br />
1.5.02.02 Pop-In Intensity Monitor
This element covers the design, procurement, fabrication and assembly of the Pop-In<br />
Intensity Monitors for XPP, CXI and XCS (2 for XPP, 2 for CXI, and 7 for XCS). This<br />
element does not cover the installation of the devices. The deliverables for this device are a<br />
stand alone vacuum chamber with a pips diode mounted to a pnuematic actuator, a six<br />
degree of freedom support system that can be mounted to a table and design<br />
documentation of the hardware.<br />
1.5.02.03 Intensity-Position Monitor<br />
This element covers the design, procurement, fabrication and assembly of the Pop-In<br />
Intensity Monitors for XPP, CXI and XCS (3 for XPP, 3 for CXI and 5 for XCS). This<br />
element does not cover the installation of the devices. The deliverables for this device are a<br />
stand alone vacuum chamber with a quadrant diode mounted to a pnuematic actuator, a<br />
filter assembly mounted to a slide and driven by a stepper motor, a six degree of freedom<br />
support system that can be mounted to a table design documentation of the hardware.<br />
1.5.03 Common Optics<br />
This element rolls up all the effort and deliverables required to manage, design, procure,<br />
fabricate, assemble, integrate and test the following deliverables:<br />
1) Slits:<br />
a. 1 dual blade primary slit device and 2 single blade slit devices for XPP<br />
b. 4 single blade slit devices for CXI<br />
c. 1 dual blade primary slit device and 6 single blade slit devices for XCS<br />
2) Attenuators: 1 for XPP, 1 for CXI, 1 for XCS<br />
3) Pulse Picker - one shared system<br />
4) Be Lens System: 1 for XPP, 1 for XCS<br />
5) Harmonic Rejection Mirror: 1 for XPP, 1 for XCS<br />
1.5.03.01 Monochromator
This <strong>WBS</strong> element primarily captures physics, engineering and design support associated<br />
with the procurement of one "large offset monochromator" as a complete system. This<br />
monochromator is destined for the XCS experiment. Included are the procurement<br />
preparation, vendor selection, and award efforts. It also includes fabrication oversight,<br />
assembly inspection, vendor site inspections, verification of deliverable monochromator, and<br />
installation coordination. It does not include any component or assembly detail analysis or<br />
design, as it should be captured as a deliverable on the vendor’s Statement of Work, SOW.<br />
This element includes effort to manage the budget and schedule, and to track and<br />
document the earn value associated with the procurement of the monochromator. This<br />
element includes the effort to identify physics requirements, define SOW, and specification<br />
on the types and quantities of tests needed to validate the monochromator integration,<br />
workmanship and performance. It does not include the design or procurement of controls<br />
and controls related equipment, which is covered in element 1.6.<br />
1.5.03.02 X-ray Focusing Lenses<br />
This element of the <strong>WBS</strong> identifies all required engineering, design, procurement, and<br />
fabrication efforts associated with the analyses and technical trades to go from the initial<br />
concept to a mature design. It also includes the effort to develop and document engineering<br />
specifications, generating manufacturing drawings, manufacturing, assembly, and<br />
verification to deliver one Be lens system to XPP and one to XCS. Performance<br />
requirements for each system shall be described in their respective PRD's.<br />
1.5.03.03 Slit System
This cell of the <strong>WBS</strong> identifies all required engineering, design, analyses, technical trades,<br />
procurement, and fabrication efforts to go from the initial concept to a mature design of the<br />
slit system for XPP, XCI and XCS. This element also includes generating manufacturing<br />
drawings, manufacturing, assembly, and verification of deliverable slit systems for XPP,<br />
XCI, and XCS. Performance requirements for each assembly shall be identified in their<br />
respective PRD's. Slits:<br />
a. 1 dual blade primary slit device and 2 single blade slit devices for XPP<br />
b. 4 single blade slit devices for CXI<br />
c. 1 dual blade primary slit device and 6 single blade slit devices for XCS<br />
1.5.03.04 Attenuators / Filters<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
efforts required to go from the initial concept to a mature design. This element also invoves<br />
generating manufacturing drawings, manufacturing, assembly, and verification of working<br />
one working attenuator system for each of the <strong>LUSI</strong> experiment, XCS, XPP, and XCI.<br />
Performance requirements for each assembly shall be identified in their respective PRD's.<br />
1.5.03.05 Pulse Picker<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, analyses, technical trades,<br />
procurement, and fabrication efforts needed to go from the initial concept to a mature design<br />
of a pulse picker system that would be shared amongt all <strong>LUSI</strong> experiments (XPP, XCI,<br />
XCS). This element includes generating an engineering specification document (ESD),<br />
manufacturing drawings, manufacturing, assembly, and verification.Performance<br />
requirements for this assembly shall be documented the PRD.<br />
1.5.03.06 Harmonic Rejection Mirrors
This cell of the <strong>WBS</strong> identifies all required engineering, design, the analyses, and technical<br />
trades, to go from the initial concept to a mature design of one harmonic rejection mirror<br />
system for XCS and one fo XPP. This element includes generating an ESD,manufacturing<br />
drawings, procurement, fabrication, manufacturing, assembly, and verification efforts<br />
associated with the delivery each system. Performance requirements for each assembly<br />
shall be delineated in it respective PRD.<br />
1.6 CONTROLS AND DATA ACQUISITION<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
efforts associated with the control systems for the three instruments. It consists of 2 major<br />
areas, the control subsystems and the data subsystems. The control subsystem will control<br />
the basic operations of all experimental endstations in the two experimental halls, the Near<br />
Hall and the Far Hall. The data subsystems will acquire, store, analyze, and archive all<br />
experimental data.<br />
1.6.01 Controls and Data Acquisition System Integration & Design<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with system management and system<br />
engineering.<br />
1.6.02 <strong>LUSI</strong> Common Controls<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the <strong>LUSI</strong> Common Controls. Common<br />
controls includes areas which are common to all experiments as detailed in <strong>WBS</strong> level 4.<br />
1.6.02.01 Photon Beam Feedback
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the 120 Hz information flow between<br />
<strong>LUSI</strong> instruments as well as from/to the electro-optics instrument. Information is acquired<br />
and processed in station IO controllers, and multi or broad cast to other controllers where it<br />
is attached to the event data of that particular beam event.<br />
1.6.02.02 Electron Beam Feedback<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the infrastructure for the 120 Hz<br />
information flow between photon beam-line and the accelerator electron beam line.<br />
Information is acquired and processed in station IO controllers, and exchanged with the<br />
emachine control system e.g. to provide feedback in order to improve the beam quality.<br />
Data from the ebeam section is attached to photon beam line data to enable event<br />
processing as well as reduction of event data stored in cache.<br />
1.6.02.03 Hutch Environmental Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the environmental monitoring and control<br />
of the hutches. Examples are temperature and humidity measurements, display, and<br />
recording.<br />
1.6.02.04 FEH DAQ Data Storage<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the local data storage in the far hall. Data<br />
is to be stored for at least 4 days in case of service interruption to the SLAC computing<br />
facilities.<br />
1.6.02.05 DAQ Data Processing<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the common acquisition and online<br />
processing of instrument data before storage in the cache.
1.6.02.06 Racks & Cabling (Common)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the common racks and associated<br />
cabling for the far hall. Includes installation of all racks and cables.<br />
1.6.03 X-ray Pump Probe Hutch 3 (NEH)<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the XPP Hutch 3 (NEH).<br />
1.6.03.01 XPP H3 Requirements, Design, Setup<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with deriving and documenting requirements<br />
for the XPP controls and data systems. Includes preparation for and holding the preliminary<br />
design review. Test setups to explore potential controller types are assembled and tested.<br />
Test software is developed.<br />
1.6.03.01.01 XPP H3 Requirements, Design<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the deriving and documenting<br />
requirements for the XPP controls and data systems. Includes preparation for and holding<br />
the preliminary design review.<br />
1.6.03.01.02 XPP H3 Development Test Setup<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the test setups to explore potential<br />
controller types are their assembly and testing. Test software is developed.<br />
1.6.03.02 XPP H3 Standard Hutch Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with experiment specific workstation, beam<br />
line processor, the channel access gateway, and the machine protection system.<br />
1.6.03.02.01 XPP H3 Cables & Racks<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the instruments specific racks and<br />
cabling. Essentially the hutch racks and cables. Includes installation of racks and cables.<br />
1.6.03.02.02 XPP H3 Workstation<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the workstations for the instrument<br />
control and monitoring.<br />
1.6.03.02.03 XPP H3 Beam Line Processor<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the exchange of 120-Hz beam line data.<br />
Includes VME crate and its IO controller CPU plus a timing system interface board.<br />
1.6.03.02.04 XPP H3 Channel Access Gateway<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the EPICS channel access gateway.<br />
Includes work-station to run channel access gateway software.<br />
1.6.03.02.05 XPP H3 MPS
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the interface to the XES common<br />
machine protection system. Includes purchase and installation of LCLS common link-nodes<br />
and switches.<br />
1.6.03.03 XPP H3 Specific Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the individual section of the instrument to<br />
be controlled and read out.<br />
1.6.03.03.01 XPP H3 Data Acquisition (DAQ)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the acquisition of data from the<br />
instrument. Included is the detector pixel read out specific to this instrument.<br />
1.6.03.03.02 XPP H3 DAQ Hutch Data Management<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the transport and management of the<br />
control and event data in the hutch.<br />
1.6.03.03.03 XPP H3 Experiment Configuration Control<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the configuration control of the<br />
instrument. Included are VME crates, switches, and terminal servers. Selected EPICS<br />
screens to interface to the users.<br />
1.6.03.03.04 XPP H3 Valve Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the valves. Solenoid drivers<br />
and VME interface hardware and software.
1.6.03.03.05 XPP H3 Vacuum Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control and measurement of the<br />
vacuum for the instrument. Included are pump controllers, gauge controllers, and VME<br />
interface hardware and software<br />
1.6.03.03.06 XPP H3 Pop-In Profile Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in profile monitors for the<br />
instrument. Included are CPU's, camera control and readout hardware and software, and<br />
pneumatic actuator controllers.<br />
1.6.03.03.07 XPP H3 Pop-In Intensity Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in intensity monitors for the<br />
instrument. Included are CPU's, analog signal digitization and readout hardware and<br />
software, and pneumatic actuator controllers.<br />
1.6.03.03.08 XPP H3 Intensity-Position Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the intensity position monitor. Included<br />
are stepper motor control, linear encoder readout, and analog-to-digital converter hardware<br />
and software.<br />
1.6.03.03.09 XPP H3 X-Ray Focusing Lens Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the focusing lens control. Included are<br />
stepper motor control, encoder readout, and VME hardware and software.<br />
1.6.03.03.10 XPP H3 Slit Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the slit control. Included are stepper<br />
motor control, encoder readout, and VME hardware and software.<br />
1.6.03.03.11 XPP H3 Attenuator Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the attenuators. Included<br />
are pneumatic actuator control, status readout, and VME hardware and software.<br />
1.6.03.03.12 reserved (Pulse picker is costed here, shared with CXI, see description under CXI)<br />
1.6.03.03.13 XPP H3 Harmonic Rejection Mirrors Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the harmonic rejection<br />
mirrors. Included are stepper motor control and encoder readout plus associated VME<br />
hardware and software.<br />
1.6.03.03.14 XPP H3 Monochromator Controls (descoped)<br />
1.6.03.03.15 XPP H3 Vision Camera Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the vision cameras via webcam<br />
controllers.<br />
1.6.03.03.16 XPP H3 Diffractometer/Wide Angle Detector Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation and installation efforts associated with the wide angle detector<br />
control. Included are stepper motor control, limit switch readback and position readback and<br />
associated VME hardware and software.
1.6.03.03.17 reserved<br />
1.6.03.03.18 XPP H3 Laser System Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the system control of the laser system.<br />
Software only development for provided laser control hardware.<br />
1.6.03.03.19 reserved<br />
1.6.03.03.20 XPP H3 Laser Optics Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the laser optics. stepper<br />
motor control, limit switch readback and cameras control and readout are included with<br />
associated VME hardware and software.<br />
1.6.03.03.21 XPP H3 Laser Diagnostics<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the diagnostics of the laser. Identical to<br />
the LCLS gun laser. Interface is Ethernet or RS232. Also uses some analog-to-digital<br />
acquisition channels, spare channels of already present ADC modules are used.<br />
1.6.03.03.22 reserved<br />
1.6.03.03.23 reserved<br />
1.6.03.03.24 reserved<br />
1.6.03.03.25 reserved
1.6.03.03.26 reserved<br />
1.6.03.03.27 reserved<br />
1.6.03.03.28 reserved<br />
1.6.03.03.29 reserved<br />
1.6.03.03.30 reserved<br />
1.6.03.03.31 reserved<br />
1.6.03.03.32 reserved<br />
1.6.03.03.33 reserved<br />
1.6.03.03.34 XPP Controls System Integration Test<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the system integration effort and<br />
associated testing.<br />
1.6.04 Coherent X-ray Imaging Hutch 5 (FEH)<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the CXI Hutch 5 (FEH).<br />
1.6.04.01 CXI H5 Requirements, Design, Setup<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with deriving and documenting requirements<br />
for the CXI controls and data systems. Includes preparation for and holding the preliminary<br />
design review. Test setups to explore potential controller types are assembled and tested.<br />
Test software is developed.
1.6.04.01.01 CXI H5 Requirements, Design<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the deriving and documenting<br />
requirements for the CXI controls and data systems. Includes preparation for and holding<br />
the preliminary design review.<br />
1.6.04.01.02 CXI H5 Development Test Setup<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the test setups to explore potential<br />
controller types are their assembly and testing. Test software is developed.<br />
1.6.04.02 CXI H5 CXI Standard Hutch Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with experiment specific workstation, beam<br />
line processor, the channel access gateway, and the machine protection system.<br />
1.6.04.02.01 CXI H5 Cables & Racks<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the instruments specific racks and<br />
cabling. Essentially the hutch racks and cables. Includes installation of racks and cables.<br />
1.6.04.02.02 CXI H5 Workstation<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the workstations for the instrument<br />
control and monitoring.<br />
1.6.04.02.03 CXI H5 Beam Line Processor
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the exchange of 120-Hz beam line data.<br />
Includes VME crate and its IO controller CPU plus a timing system interface board.<br />
1.6.04.02.04 CXI H5 Channel Access Gateway<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the EPICS channel access gateway.<br />
Includes work-station to run channel access gateway software.<br />
1.6.04.02.05 CXI H5 MPS<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the interface to the XES common<br />
machine protection system. Includes purchase and installation of LCLS common link-nodes<br />
and switches.<br />
1.6.04.03 CXI H5 Specific Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the individual section of the instrument to<br />
be controlled and read out.<br />
1.6.04.03.01 CXI H5 Data Acquisition (DAQ)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the acquisition of data from the<br />
instrument. Included is the detector pixel read out specific to this instrument.<br />
1.6.04.03.02 CXI H5 DAQ Hutch Data Management<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the transport and management of the<br />
control and event data in the hutch.
1.6.04.03.03 CXI H5 Experiment Configuration Control<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the configuration control of the<br />
instrument. Included are VME crates, switches, and terminal servers. Selected EPICS<br />
screens to interface to the users.<br />
1.6.04.03.04 CXI H5 Valve Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the valves. Solenoid drivers<br />
and VME interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.05 CXI H5 Vacuum Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control and measurement of the<br />
vacuum for the instrument. Included are pump controllers, gauge controllers, and VME<br />
interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.06 CXI H5 Pop-In Profile Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in profile monitors for the<br />
instrument. Included are CPU's, camera control and readout hardware and software, and<br />
pneumatic actuator controllers. Main development effort is under XPP and only incremental<br />
effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.07 CXI H5 Pop-In Intensity Monitor Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in intensity monitors for the<br />
instrument. Included are CPU's, analog signal digitization and readout hardware and<br />
software, and pneumatic actuator controllers. Main development effort is under XPP and<br />
only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.08 CXI H5 Intensity-Position Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the intensity position monitor. Included<br />
are stepper motor control, linear encoder readout, and analog-to-digital converter hardware<br />
and software. Main development effort is under XPP and only incremental effort is included<br />
under this <strong>WBS</strong>. Main development effort is under XPP and only incremental effort is<br />
included under this <strong>WBS</strong>.<br />
1.6.04.03.09 reserved<br />
1.6.04.03.10 CXI H5 Slit Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the slit control. Included are stepper<br />
motor control, encoder readout, and VME hardware and software. Main development effort<br />
is under XPP and only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.11 CXI H5 Attenuator Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the attenuators. Included<br />
are pneumatic actuator control, status readout, and VME hardware and software. Main<br />
development effort is under XPP and only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.04.03.12 CXI H5 Pulse Picker Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pulse picker. Included are hardware<br />
and software. Basically needs timing signal synchronized with the machine and stepper<br />
motor control, limit switch readback and vision camera control and readout. Note that pulsepicker<br />
is shared with XPP (and costed under XPP in the controls <strong>WBS</strong>)<br />
1.6.04.03.13 CXI H5 KB Mirror Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the mirrors. Included are<br />
stepper motor control, status readout, and associated VME hardware and software.<br />
1.6.04.03.14 CXI H5 Sample Environment Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the sampling environment.<br />
Essentially vacuum and non-vacuum motor control, limit switch readback, and position<br />
readback plus several vision camera controllers. Hardware and software effort is included.<br />
1.6.04.03.15 CXI H5 Particle Injector Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of particle injector. Motor<br />
control, limit switch readback, and position readback plus high-speed waveform sampling<br />
modules. Hardware and software effort is included.<br />
1.6.04.03.16 CXI H5 Ion T<strong>OF</strong> Controls
1.6.04.03.17 reserved<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the ion time-of-flight control and readout.<br />
Provided is hardware and software to set and readback bias voltages, pulsed high-voltages,<br />
and analog waveform sampling. VME and cPCI hardware is included.<br />
1.6.04.03.18 CXI H5 Vision Camera Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the viewing via vision cameras.<br />
Commercial camera controller interfaces are provided, hardware and software.<br />
1.6.04.03.19 CXI H5 Detector Stage Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the motion control of the detector stage.<br />
Stepper motor control, limit-switch readback, and encoder readback as well as photo-diode<br />
signal digitization is provided.<br />
1.6.04.03.20 reserved<br />
1.6.04.03.21 reserved<br />
1.6.04.03.22 reserved<br />
1.6.04.03.23 reserved<br />
1.6.04.03.24 CXI H5 Reference Laser Controls
1.6.04.03.25 reserved<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the reference laser. Pico<br />
motor control and readback is provided.<br />
1.6.04.03.26 CXI Controls System Integration Test<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the system integration effort and<br />
associated testing.<br />
1.6.05 X-ray Correlation Spectroscopy Hutch 4 (FEH)<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the XCS Spectroscopy Hutch 4 (FEH).<br />
1.6.05.01 XCS H4 Requirements, Design, Setup<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with deriving and documenting requirements<br />
for the XCS controls and data systems. Includes preparation for and holding the preliminary<br />
design review. Test setups to explore potential controller types are assembled and tested.<br />
Test software is developed.<br />
1.6.05.01.01 XCS H4 Requirements, Design<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the deriving and documenting<br />
requirements for the XCS controls and data systems. Includes preparation for and holding<br />
the preliminary design review.<br />
1.6.05.01.02 XCS H4 Development Test Setup
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the test setups to explore potential<br />
controller types are their assembly and testing. Test software is developed.<br />
1.6.05.02 XCS H4 Standard Hutch Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with experiment specific workstation, beam<br />
line processor, the channel access gateway, and the machine protection system.<br />
1.6.05.02.01 XCS H4 Cables & Racks<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the instruments specific racks and<br />
cabling. Essentially the hutch racks and cables. Includes installation of racks and cables.<br />
1.6.05.02.02 XCS H4 Workstation<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the workstations for the instrument<br />
control and monitoring.<br />
1.6.05.02.03 XCS H4 Beam Line Processor<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the exchange of 120-Hz beam line data.<br />
Includes VME crate and its IO controller CPU plus a timing system interface board.<br />
1.6.05.02.04 XCS H4 Channel Access Gateway<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the EPICS channel access gateway.<br />
Includes work-station to run channel access gateway software.
1.6.05.02.05 XCS H4 MPS<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the interface to the XES common<br />
machine protection system. Includes purchase and installation of LCLS common link-nodes<br />
and switches.<br />
1.6.05.03 XCS H4 Specific Controls<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the XCS Specific Controls.<br />
1.6.05.03.01 XCS H4 Data Acquisition (DAQ)<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the acquisition of data from the<br />
instrument. Included is the detector pixel read out specific to this instrument.<br />
1.6.05.03.02 XCS H4 DAQ Hutch Data Management<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the transport and management of the<br />
control and event data in the hutch.<br />
1.6.05.03.03 XCS H4 Experiment Configuration Control<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the configuration control of the<br />
instrument. Included are VME crates, switches, and terminal servers. Selected EPICS<br />
screens to interface to the users.<br />
1.6.05.03.04 XCS H4 Valve Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the valves. Solenoid drivers<br />
and VME interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.05 XCS H4 Vacuum Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control and measurement of the<br />
vacuum for the instrument. Included are pump controllers, gauge controllers, and VME<br />
interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.06 XCS H4 Pop-In Profile Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in profile monitors for the<br />
instrument. Included are CPU's, camera control and readout hardware and software, and<br />
pneumatic actuator controllers. Main development effort is under XPP and only incremental<br />
effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.07 XCS H4 Pop-In Intensity Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in intensity monitors for the<br />
instrument. Included are CPU's, analog signal digitization and readout hardware and<br />
software, and pneumatic actuator controllers. Main development effort is under XPP and<br />
only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.08 XCS H4 Intensity-Position Monitor Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the intensity position monitor. Included<br />
are stepper motor control, linear encoder readout, and analog-to-digital converter hardware<br />
and software. Main development effort is under XPP and only incremental effort is included<br />
under this <strong>WBS</strong>. Main development effort is under XPP and only incremental effort is<br />
included under this <strong>WBS</strong>.<br />
1.6.05.03.09 XCS H4 Slit Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the slit control. Included are stepper<br />
motor control, encoder readout, and VME hardware and software. Main development effort<br />
is under XPP and only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.10 XCS H4 Attenuator Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the attenuators. Included<br />
are pneumatic actuator control, status readout, and VME hardware and software. Main<br />
development effort is under XPP and only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.03.11 XCS H4 Harmonic Rejection Mirrors Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the harmonic rejection<br />
mirrors. Included are stepper motor control and encoder readout plus associated VME<br />
hardware and software.<br />
1.6.05.03.12 XCS H4 2D Detector Motion Camera Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the movement of the @D detector<br />
cameras. Vacuum motor control and readback as well as vision cameras are included here.<br />
Note that the detector configuration and readout itself is under Data-acquisition 1.6.5.1.<br />
1.6.05.03.13 XCS H4 Diffractometer Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the diffractomenter. Motion<br />
control and position readback is provided.<br />
1.6.05.03.14 XCS H4 Large Angle Detector Stage Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the detector stage. Included<br />
are vacuum stepper motor control and encoder readout plus associated VME hardware and<br />
software.<br />
1.6.05.03.15 reserved<br />
1.6.05.03.16 XCS H4 Controls System Integration Test<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the system integration effort and<br />
associated testing.<br />
1.6.05.04 XCS Beam Transport to FEH<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the Beam Transport to FEH.<br />
1.6.05.04.01 XCS BT to FEH Valve Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control of the valves. Solenoid drivers<br />
and VME interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.04.02 XCS BT to FEH Vacuum Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the control and measurement of the<br />
vacuum for the instrument. Included are pump controllers, gauge controllers, and VME<br />
interface hardware and software. Main development effort is under XPP and only<br />
incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.04.03 XCS BT to FEH Pop-In Profile Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in profile monitors for the<br />
instrument. Included are CPU's, camera control and readout hardware and software, and<br />
pneumatic actuator controllers. Main development effort is under XPP and only incremental<br />
effort is included under this <strong>WBS</strong>.<br />
1.6.05.04.04 XCS BT to FEH Pop-In Intensity Monitor Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the pop-in intensity monitors for the<br />
instrument. Included are CPU's, analog signal digitization and readout hardware and<br />
software, and pneumatic actuator controllers. Main development effort is under XPP and<br />
only incremental effort is included under this <strong>WBS</strong>.<br />
1.6.05.04.05 XCS BT to FEH Intensity-Position Monitor Controls
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the intensity position monitor. Included<br />
are stepper motor control, linear encoder readout, and analog-to-digital converter hardware<br />
and software. Main development effort is under XPP and only incremental effort is included<br />
under this <strong>WBS</strong>. Main development effort is under XPP and only incremental effort is<br />
included under this <strong>WBS</strong>.<br />
1.6.05.04.06 Monochromator Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the monochromator.<br />
1.6.05.04.07 XCS BT to FEH X-Ray Focusing Lens Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the focusing lens control. Vacuum motion<br />
controllers and readback modules including limit switch readback is provided.<br />
1.6.05.04.08 XCS BT to FEH Split and Delay Controls<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the split-and-delay unit. Assumption is<br />
that controller is part of the instrument deliverable and only integration into LCLS system is<br />
provided under this <strong>WBS</strong>. Ethernet or serial connection.<br />
1.6.05.04.09 XCS Beam Transport to FEH System Integration Test<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design, procurement, and fabrication<br />
and component installation efforts associated with the system integration effort and<br />
associated testing.<br />
1.6.06 Offline Data Management<br />
This cell of the <strong>WBS</strong> is a summary of the engineering, design, procurement, and fabrication<br />
efforts associated with the Offline Data Management.
1.6.06.01 Data Format and API<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design efforts to arrive at the<br />
appropriate data formats and application program interfaces for the <strong>LUSI</strong> instruments.<br />
1.6.06.02 Data Catalog / Metadata Management<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design effort to arrive at the<br />
appropriate data catalog for <strong>LUSI</strong> data and how to manage the meta data.<br />
1.6.06.03 Processing Framework / Workflow / Pipeline<br />
This cell of the <strong>WBS</strong> identifies all required engineering, design effort to arrive at the<br />
appropriate framework to process <strong>LUSI</strong> data and how the workflow and data pipeline is<br />
constructed.